Made an application for supporting sustainable local businesses in San Pancho. Never really got completed, but it has some useful Svelte components for maps that we can reuse. http://greenspots.dctrl.space
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import typing as t
import warnings
from functools import update_wrapper
from io import BytesIO
from itertools import chain
from typing import Union
from . import exceptions
from ._internal import _to_str
from .datastructures import FileStorage
from .datastructures import Headers
from .datastructures import MultiDict
from .http import parse_options_header
from .sansio.multipart import Data
from .sansio.multipart import Epilogue
from .sansio.multipart import Field
from .sansio.multipart import File
from .sansio.multipart import MultipartDecoder
from .sansio.multipart import NeedData
from .urls import url_decode_stream
from .wsgi import _make_chunk_iter
from .wsgi import get_content_length
from .wsgi import get_input_stream
# there are some platforms where SpooledTemporaryFile is not available.
# In that case we need to provide a fallback.
try:
from tempfile import SpooledTemporaryFile
except ImportError:
from tempfile import TemporaryFile
SpooledTemporaryFile = None # type: ignore
if t.TYPE_CHECKING:
import typing as te
from _typeshed.wsgi import WSGIEnvironment
t_parse_result = t.Tuple[t.IO[bytes], MultiDict, MultiDict]
class TStreamFactory(te.Protocol):
def __call__(
self,
total_content_length: t.Optional[int],
content_type: t.Optional[str],
filename: t.Optional[str],
content_length: t.Optional[int] = None,
) -> t.IO[bytes]:
...
F = t.TypeVar("F", bound=t.Callable[..., t.Any])
def _exhaust(stream: t.IO[bytes]) -> None:
bts = stream.read(64 * 1024)
while bts:
bts = stream.read(64 * 1024)
def default_stream_factory(
total_content_length: t.Optional[int],
content_type: t.Optional[str],
filename: t.Optional[str],
content_length: t.Optional[int] = None,
) -> t.IO[bytes]:
max_size = 1024 * 500
if SpooledTemporaryFile is not None:
return t.cast(t.IO[bytes], SpooledTemporaryFile(max_size=max_size, mode="rb+"))
elif total_content_length is None or total_content_length > max_size:
return t.cast(t.IO[bytes], TemporaryFile("rb+"))
return BytesIO()
def parse_form_data(
environ: "WSGIEnvironment",
stream_factory: t.Optional["TStreamFactory"] = None,
charset: str = "utf-8",
errors: str = "replace",
max_form_memory_size: t.Optional[int] = None,
max_content_length: t.Optional[int] = None,
cls: t.Optional[t.Type[MultiDict]] = None,
silent: bool = True,
) -> "t_parse_result":
"""Parse the form data in the environ and return it as tuple in the form
``(stream, form, files)``. You should only call this method if the
transport method is `POST`, `PUT`, or `PATCH`.
If the mimetype of the data transmitted is `multipart/form-data` the
files multidict will be filled with `FileStorage` objects. If the
mimetype is unknown the input stream is wrapped and returned as first
argument, else the stream is empty.
This is a shortcut for the common usage of :class:`FormDataParser`.
Have a look at :doc:`/request_data` for more details.
.. versionadded:: 0.5
The `max_form_memory_size`, `max_content_length` and
`cls` parameters were added.
.. versionadded:: 0.5.1
The optional `silent` flag was added.
:param environ: the WSGI environment to be used for parsing.
:param stream_factory: An optional callable that returns a new read and
writeable file descriptor. This callable works
the same as :meth:`Response._get_file_stream`.
:param charset: The character set for URL and url encoded form data.
:param errors: The encoding error behavior.
:param max_form_memory_size: the maximum number of bytes to be accepted for
in-memory stored form data. If the data
exceeds the value specified an
:exc:`~exceptions.RequestEntityTooLarge`
exception is raised.
:param max_content_length: If this is provided and the transmitted data
is longer than this value an
:exc:`~exceptions.RequestEntityTooLarge`
exception is raised.
:param cls: an optional dict class to use. If this is not specified
or `None` the default :class:`MultiDict` is used.
:param silent: If set to False parsing errors will not be caught.
:return: A tuple in the form ``(stream, form, files)``.
"""
return FormDataParser(
stream_factory,
charset,
errors,
max_form_memory_size,
max_content_length,
cls,
silent,
).parse_from_environ(environ)
def exhaust_stream(f: F) -> F:
"""Helper decorator for methods that exhausts the stream on return."""
def wrapper(self, stream, *args, **kwargs): # type: ignore
try:
return f(self, stream, *args, **kwargs)
finally:
exhaust = getattr(stream, "exhaust", None)
if exhaust is not None:
exhaust()
else:
while True:
chunk = stream.read(1024 * 64)
if not chunk:
break
return update_wrapper(t.cast(F, wrapper), f)
class FormDataParser:
"""This class implements parsing of form data for Werkzeug. By itself
it can parse multipart and url encoded form data. It can be subclassed
and extended but for most mimetypes it is a better idea to use the
untouched stream and expose it as separate attributes on a request
object.
.. versionadded:: 0.8
:param stream_factory: An optional callable that returns a new read and
writeable file descriptor. This callable works
the same as :meth:`Response._get_file_stream`.
:param charset: The character set for URL and url encoded form data.
:param errors: The encoding error behavior.
:param max_form_memory_size: the maximum number of bytes to be accepted for
in-memory stored form data. If the data
exceeds the value specified an
:exc:`~exceptions.RequestEntityTooLarge`
exception is raised.
:param max_content_length: If this is provided and the transmitted data
is longer than this value an
:exc:`~exceptions.RequestEntityTooLarge`
exception is raised.
:param cls: an optional dict class to use. If this is not specified
or `None` the default :class:`MultiDict` is used.
:param silent: If set to False parsing errors will not be caught.
"""
def __init__(
self,
stream_factory: t.Optional["TStreamFactory"] = None,
charset: str = "utf-8",
errors: str = "replace",
max_form_memory_size: t.Optional[int] = None,
max_content_length: t.Optional[int] = None,
cls: t.Optional[t.Type[MultiDict]] = None,
silent: bool = True,
) -> None:
if stream_factory is None:
stream_factory = default_stream_factory
self.stream_factory = stream_factory
self.charset = charset
self.errors = errors
self.max_form_memory_size = max_form_memory_size
self.max_content_length = max_content_length
if cls is None:
cls = MultiDict
self.cls = cls
self.silent = silent
def get_parse_func(
self, mimetype: str, options: t.Dict[str, str]
) -> t.Optional[
t.Callable[
["FormDataParser", t.IO[bytes], str, t.Optional[int], t.Dict[str, str]],
"t_parse_result",
]
]:
return self.parse_functions.get(mimetype)
def parse_from_environ(self, environ: "WSGIEnvironment") -> "t_parse_result":
"""Parses the information from the environment as form data.
:param environ: the WSGI environment to be used for parsing.
:return: A tuple in the form ``(stream, form, files)``.
"""
content_type = environ.get("CONTENT_TYPE", "")
content_length = get_content_length(environ)
mimetype, options = parse_options_header(content_type)
return self.parse(get_input_stream(environ), mimetype, content_length, options)
def parse(
self,
stream: t.IO[bytes],
mimetype: str,
content_length: t.Optional[int],
options: t.Optional[t.Dict[str, str]] = None,
) -> "t_parse_result":
"""Parses the information from the given stream, mimetype,
content length and mimetype parameters.
:param stream: an input stream
:param mimetype: the mimetype of the data
:param content_length: the content length of the incoming data
:param options: optional mimetype parameters (used for
the multipart boundary for instance)
:return: A tuple in the form ``(stream, form, files)``.
"""
if (
self.max_content_length is not None
and content_length is not None
and content_length > self.max_content_length
):
# if the input stream is not exhausted, firefox reports Connection Reset
_exhaust(stream)
raise exceptions.RequestEntityTooLarge()
if options is None:
options = {}
parse_func = self.get_parse_func(mimetype, options)
if parse_func is not None:
try:
return parse_func(self, stream, mimetype, content_length, options)
except ValueError:
if not self.silent:
raise
return stream, self.cls(), self.cls()
@exhaust_stream
def _parse_multipart(
self,
stream: t.IO[bytes],
mimetype: str,
content_length: t.Optional[int],
options: t.Dict[str, str],
) -> "t_parse_result":
parser = MultiPartParser(
self.stream_factory,
self.charset,
self.errors,
max_form_memory_size=self.max_form_memory_size,
cls=self.cls,
)
boundary = options.get("boundary", "").encode("ascii")
if not boundary:
raise ValueError("Missing boundary")
form, files = parser.parse(stream, boundary, content_length)
return stream, form, files
@exhaust_stream
def _parse_urlencoded(
self,
stream: t.IO[bytes],
mimetype: str,
content_length: t.Optional[int],
options: t.Dict[str, str],
) -> "t_parse_result":
if (
self.max_form_memory_size is not None
and content_length is not None
and content_length > self.max_form_memory_size
):
# if the input stream is not exhausted, firefox reports Connection Reset
_exhaust(stream)
raise exceptions.RequestEntityTooLarge()
form = url_decode_stream(stream, self.charset, errors=self.errors, cls=self.cls)
return stream, form, self.cls()
#: mapping of mimetypes to parsing functions
parse_functions: t.Dict[
str,
t.Callable[
["FormDataParser", t.IO[bytes], str, t.Optional[int], t.Dict[str, str]],
"t_parse_result",
],
] = {
"multipart/form-data": _parse_multipart,
"application/x-www-form-urlencoded": _parse_urlencoded,
"application/x-url-encoded": _parse_urlencoded,
}
def _line_parse(line: str) -> t.Tuple[str, bool]:
"""Removes line ending characters and returns a tuple (`stripped_line`,
`is_terminated`).
"""
if line[-2:] == "\r\n":
return line[:-2], True
elif line[-1:] in {"\r", "\n"}:
return line[:-1], True
return line, False
def parse_multipart_headers(iterable: t.Iterable[bytes]) -> Headers:
"""Parses multipart headers from an iterable that yields lines (including
the trailing newline symbol). The iterable has to be newline terminated.
The iterable will stop at the line where the headers ended so it can be
further consumed.
:param iterable: iterable of strings that are newline terminated
"""
warnings.warn(
"'parse_multipart_headers' is deprecated and will be removed in"
" Werkzeug 2.1.",
DeprecationWarning,
stacklevel=2,
)
result: t.List[t.Tuple[str, str]] = []
for b_line in iterable:
line = _to_str(b_line)
line, line_terminated = _line_parse(line)
if not line_terminated:
raise ValueError("unexpected end of line in multipart header")
if not line:
break
elif line[0] in " \t" and result:
key, value = result[-1]
result[-1] = (key, f"{value}\n {line[1:]}")
else:
parts = line.split(":", 1)
if len(parts) == 2:
result.append((parts[0].strip(), parts[1].strip()))
# we link the list to the headers, no need to create a copy, the
# list was not shared anyways.
return Headers(result)
class MultiPartParser:
def __init__(
self,
stream_factory: t.Optional["TStreamFactory"] = None,
charset: str = "utf-8",
errors: str = "replace",
max_form_memory_size: t.Optional[int] = None,
cls: t.Optional[t.Type[MultiDict]] = None,
buffer_size: int = 64 * 1024,
) -> None:
self.charset = charset
self.errors = errors
self.max_form_memory_size = max_form_memory_size
if stream_factory is None:
stream_factory = default_stream_factory
self.stream_factory = stream_factory
if cls is None:
cls = MultiDict
self.cls = cls
self.buffer_size = buffer_size
def fail(self, message: str) -> "te.NoReturn":
raise ValueError(message)
def get_part_charset(self, headers: Headers) -> str:
# Figure out input charset for current part
content_type = headers.get("content-type")
if content_type:
mimetype, ct_params = parse_options_header(content_type)
return ct_params.get("charset", self.charset)
return self.charset
def start_file_streaming(
self, event: File, total_content_length: t.Optional[int]
) -> t.IO[bytes]:
content_type = event.headers.get("content-type")
try:
content_length = int(event.headers["content-length"])
except (KeyError, ValueError):
content_length = 0
container = self.stream_factory(
total_content_length=total_content_length,
filename=event.filename,
content_type=content_type,
content_length=content_length,
)
return container
def parse(
self, stream: t.IO[bytes], boundary: bytes, content_length: t.Optional[int]
) -> t.Tuple[MultiDict, MultiDict]:
container: t.Union[t.IO[bytes], t.List[bytes]]
_write: t.Callable[[bytes], t.Any]
iterator = chain(
_make_chunk_iter(
stream,
limit=content_length,
buffer_size=self.buffer_size,
),
[None],
)
parser = MultipartDecoder(boundary, self.max_form_memory_size)
fields = []
files = []
current_part: Union[Field, File]
for data in iterator:
parser.receive_data(data)
event = parser.next_event()
while not isinstance(event, (Epilogue, NeedData)):
if isinstance(event, Field):
current_part = event
container = []
_write = container.append
elif isinstance(event, File):
current_part = event
container = self.start_file_streaming(event, content_length)
_write = container.write
elif isinstance(event, Data):
_write(event.data)
if not event.more_data:
if isinstance(current_part, Field):
value = b"".join(container).decode(
self.get_part_charset(current_part.headers), self.errors
)
fields.append((current_part.name, value))
else:
container = t.cast(t.IO[bytes], container)
container.seek(0)
files.append(
(
current_part.name,
FileStorage(
container,
current_part.filename,
current_part.name,
headers=current_part.headers,
),
)
)
event = parser.next_event()
return self.cls(fields), self.cls(files)